A kind of full optical fiber downhole monitoring system of essential safety
Technical field
The present invention relates to the monitoring system under the mine, relate in particular to the full optical fiber downhole monitoring system that a kind of its down-hole part does not comprise any electronic devices and components, need not electric power supply thereby essential safety, can be applicable to all mines, the safety in production that especially inflammable and explosive environment goes down into a mine and accident are rescued the field.
Background technology
For a long time, take in the colliery as the underground mine of Typical Representative, complex geologic conditions is changeable, often be subject to the threat of the disasters such as gas, water, fire, coal dust, landslide, add that technical equipment falls behind relatively, workforce's quality generally not high, safety management is not enough, cause various Frequent Accidents, underground work personnel's life security is constituted a serious threat.The how effectively normal operation of various systems and the dangerous information in the environment under the monitor well, and mine disaster rescues after occuring timely and effectively, become the most important task of mine safety production.
Existing downhole monitoring system, no matter be sensor, data collecting system, or data transmission system, form by electronic devices and components, its operation needs supply of electric power, and these electronic devices and components are for a long time operation in the adverse circumstances of down-hole, inevitably produce the phenomenons such as short circuit, electric spark, local pyrexia, such downhole monitoring system itself especially in the higher zone of methane gas concentration, has more danger just with inborn potential safety hazard.
Summary of the invention
Defects for existing downhole monitoring system the purpose of this invention is to provide the full optical fiber downhole monitoring system that a kind of its down-hole part does not comprise any electronic devices and components, need not electric power supply thereby essential safety.
The present invention for the technical scheme that solves its technical problem and adopt is:
A kind of full optical fiber downhole monitoring system of essential safety, by monitoring terminal, transmission cable and full Fibre Optical Sensor terminal form, monitoring terminal is positioned at aboveground, full Fibre Optical Sensor terminal is positioned at the down-hole, transmission cable connects monitoring terminal and full Fibre Optical Sensor terminal, described full Fibre Optical Sensor terminal is comprised of the light pretreatment module that does not need supply of electric power and sensing bare fibre, described smooth pretreatment module is formed by connecting by two sections optical patchcords side by side by two fiber couplers, wherein be manufactured with fibre delay line on one section optical patchcord, light pretreatment module one end is connected to transmission cable, the other end connects the sensing bare fibre, and sensing bare fibre end is connected with a speculum.
The operation of described monitoring terminal needs supply of electric power, by the input that is connected to transmission cable after the light source module connection light shunt module, connect successively detection and amplification module, data acquisition module, data processing module and display module form from the output of transmission cable again, also comprise corresponding software systems, have to light launch, the function of reception and analyzing and processing.
Described sensing bare fibre is the optical fiber that removes its redundant protection layer in order to satisfy high sensitivity to require, and is comprised of fibre core, covering, coat, also is included in other protection structures that increase under the prerequisite that does not affect its sensitivity.
Described smooth pretreatment module can be finished the preliminary extraction to optical information, thereby plays the sensing of separation light path and the effect of transmission region.
Monitoring terminal is placed in the aboveground monitoring machine room; Transmission cable one end is connected monitoring terminal, and the other end enters the down-hole, and according to the concrete condition of down-hole passage transmission cable is carried out branch; The place strip off transmission cable that need to monitor in the down-hole is drawn optical fiber, is connected to full Fibre Optical Sensor terminal; In full Fibre Optical Sensor terminal, comprise one section sensing bare fibre, according to the actual conditions of institute monitored area, the sensing bare fibre is coiled into the coil rear-mounted or is attached to the place that is difficult for touching.
Working mechanism of the present invention is:
Monitoring terminal by transmission cable to full Fibre Optical Sensor terminal utilizing emitted light signal; The various multidate informations that produce in the subsurface environment by various media, form disturbance to the sensing bare fibre, thereby cause the minor variations of the inner light path of sensing bare fibre; Full Fibre Optical Sensor terminal is passed through transmission cable, the optical return signal of this change in optical path length is passed to monitoring terminal, finish the functions such as opto-electronic conversion, signals collecting, analyzing and processing, demonstration and warning in monitoring terminal inside, thereby realize the Real-Time Monitoring to the various multidate informations in down-hole.
Among the present invention, the various multidate informations that produce in the described subsurface environment, refer to the various information that can make the sensing bare fibre produce time dependent small geometrical deformation, speak, walk, knock sound wave that wall, seismic wave, current etc. produce, vibration, shock wave etc. including, but not limited to the personnel in the pit.
Among the present invention, described various media refer to air, soil layer, water of down-hole etc., by these media, the various multidate informations in the environment can be delivered to the sensing bare fibre that is suspended in the air, is positioned under water or is attached on the wall.
Among the present invention, described disturbance refers to the time dependent small geometrical deformation that the sensing bare fibre produces.
Compared with the prior art, the present invention has the following advantages:
1. essential safety.Part in the down-hole among the present invention all is comprised of passive optical fiber devices, do not have and cause dangerous physical basis, no current passes through when work, the non-radiating electromagnetic wave, be not subjected to electromagnetic interference yet, can not produce the phenomenons such as electric spark, electric leakage, short circuit, heating, but long-term work is in highdensity methane gas and do not have danger.Requiring under the extremely strict condition, native system also can accomplish not contain any metal ingredient in the part of down-hole.
2. green energy conservation, low-carbon environment-friendly is particularly useful for large-scale mine.Only need lower powered electric power supply at aboveground monitoring terminal among the present invention, all by optical fibre device transmission luminous energy, energy loss is minimum for the down-hole part, can need not the outside resources supply and long-time running within the down-hole reaches tens of kilometers scope.
3. suitable environment is wide.The present invention all is comprised of passive optical fiber devices in the part of down-hole, can moist, under water, long-term stable operation under the various adverse circumstances such as high temperature, corrosion.
4. assist the function of rescuing after having simultaneously safety in production monitoring and accident.The present invention can monitor personnel in the pit's duty at ordinary times, and after the accidents such as permeable, landslide, even full Fibre Optical Sensor terminal is buried, the personnel in the pit still can be by beaing the mode such as native stone to aboveground monitoring terminal unidirectional delivery information.
5. combine with optical communication system.Can pass through common transmitted optical cable part among the present invention, and the various other systems based on fiber optic cable communications of down-hole are compound applicable.
Description of drawings
Fig. 1 is system schematic of the present invention;
Fig. 2 is the structural representation of monitoring terminal among the present invention, and wherein block arrows is optical path direction, and hollow arrow is the circuit direction;
Fig. 3 is the structural representation of the full Fibre Optical Sensor terminal of the 1st embodiment of the present invention;
Fig. 4 is the structural representation of the full Fibre Optical Sensor terminal of the 2nd embodiment of the present invention;
Among the figure, 10. monitoring terminal, 20. transmission cables, 30. full Fibre Optical Sensor terminals, 11. light source module, 12. smooth shunt module, 13. detect and amplification module 14. data acquisition modules, 15. data processing module, 16. display modules, 31. smooth pretreatment module, 32. the sensing bare fibre, 33. speculums, 311.2 * 2 fiber couplers, 312.2 * 2 fiber couplers, 313. fibre delay lines, 314. optical patchcords, 315. optical patchcord, 316.3 * 3 fiber couplers, 34. faraday's polarization rotating mirrors.
The specific embodiment
The present invention is described in detail below in conjunction with the drawings and specific embodiments.
As shown in Figure 1, the full optical fiber downhole monitoring system of described essential safety is comprised of monitoring terminal 10, transmission cable 20 and full Fibre Optical Sensor terminal 30 3 parts, wherein, monitoring terminal 10 is positioned at aboveground, full Fibre Optical Sensor terminal 30 is positioned at the down-hole, and transmission cable 20 connects monitoring terminal 10 and full Fibre Optical Sensor terminal 30.
Embodiment 1:
In conjunction with Fig. 2 and Fig. 3, the present embodiment comprises monitoring terminal 10, transmission cable 20, full Fibre Optical Sensor terminal 30, and transmission cable 20 two ends connect respectively monitoring terminal 10 and full Fibre Optical Sensor terminal 30.Monitoring terminal 10 as shown in Figure 2, comprising light source module 11, light shunt module 12, detection and amplification module 13, data acquisition module 14, data processing module 15, display module 16; Full Fibre Optical Sensor terminal 30 is such as Fig. 3, comprising light pretreatment module 31, sensing bare fibre 32, speculum 33; Comprise 2 * 2 fiber couplers 311,2 * 2 fiber couplers 312, fibre delay line 313, optical patchcord 314, optical patchcord 315 in the light pretreatment module 31, wherein optical patchcord 314,315 connects 2 * 2 fiber couplers 311 and 2 * 2 fiber couplers 312, and fibre delay line 313 is produced on the optical patchcord 314.
Use when of the present invention, monitoring terminal 10 is positioned over aboveground safety monitoring center, the monitoring terminal 10 on the transmission cable 20 1 end connecting wells, the other end gos deep into the down-hole, and carries out branch according to the concrete condition of down-hole.Two core fibres (launch respectively and accept optical signal) with transmission cable 20 strip ofves, are drawn in the place that need to monitor in the down-hole, access full Fibre Optical Sensor terminal 30.Suppose the specific requirement according to underground monitoring, definition needs N full Fibre Optical Sensor terminal 30, then should comprise at least 2N fiber number in the transmission cable 20.
The light path feature of the present embodiment is: the continuous light wave that the light source module 11 of wide spectrum sends, enter light shunt module 12 after, be N light component by mean allocation, be assigned to respectively in the full Fibre Optical Sensor terminal 30 of N by transmission cable 20.In full Fibre Optical Sensor terminal 30, light energy is divided into 2 light components by 2 * 2 fiber couplers 311, and the light component that wherein enters wire jumper 315 directly enters in 2 * 2 fiber couplers 312; The light component that enters wire jumper 314 is through fibre delay line 313, produced time-delay τ after, enter again 2 * 2 fiber couplers 312; Wire jumper 314, two light components in 315 enter sensing bare fibre 32 after merging in 2 * 2 fiber couplers 312, therefore, at sensing bare fibre 32 internal communications are two light components with time difference τ, these two light components are through after the forward propagation of certain distance, run into the speculum 33 of sensing bare fibre 32 ends, be reflected and after sensing bare fibre 32 former road directions, propagate afterwards, to 2 * 2 fiber couplers 312, originally two light components that had a time difference τ by after the light splitting again respectively by the wire jumper 314 with fibre delay line 313 and the wire jumper 315 that does not have time-delay, and enter in 2 * 2 fiber couplers 311 and to merge, enter transmission cable 20 after the merging, and get back in the monitoring terminal 10 by transmission cable 20.
Light pretreatment module 31 plays the effect that separates sensor-based system and transmission system in the present embodiment.The sensing bare fibre 32 that light pretreatment module 31 1 ends connect, the multidate information in can the perception surrounding environment plays the effect of sensing; When light component comes and goes twice during by light pretreatment module 31, pass through beam splitting, close the optics Effect of Pretreatments such as bundle, delay, return afterwards the transmission cable 20 of light pretreatment module 31 other ends, this moment, transmission cable 20 only played the effect of transmitting optical signal, and its inner optical signal no longer is subjected to the impact of various multidate informations in the surrounding environment.
In full Fibre Optical Sensor terminal 30, produce altogether 4 following light components: have time-delay τ when (a) propagating forward, not time-delay when returning backward; Not time-delay has time-delay τ when (b) propagating forward when returning backward; (c) propagation does not all have time-delay with returning backward forward; (d) propagation all has time-delay τ with returning backward forward.Because light source module 11 adopts broad spectrum light source, so that the coherence length of light wave is less than the length of fibre delay line 313, dimension, in above-mentioned 4 light components, only have light component (a) and (b) satisfy coherent condition, light wave after produce interfering enters and detects and amplification module 13, enters successively in data acquisition module 14, data processing module 15 and the display module 16 after changing the signal of telecommunication into.
The working mechanism of the present embodiment is as follows:
Various multidate informations in full Fibre Optical Sensor terminal 30 surrounding environment can be regarded the disturbance to sensing bare fibre 32 as, thereby the light path of propagates light in the sensing bare fibre 32 is modulated.For example, the aerial propagation of sound wave will cause that the air ambient acoustic pressure changes, and acoustic pressure changes the minor variations that will cause as the geometry of elastomeric bare fibre; And for example, the mechanical wave of propagating in wall also can cause the variation of bare fibre geometry attached thereto.According to the elasto-optical effect of optical fiber, these disturbances will cause the minor variations of fiber lengths and refractive index, thereby so that the light of inside of optical fibre transmission, the light path time to time change of in through sensing bare fibre 32, passing by.
Environment produces in the situation of disturbances sensing bare fibre 32 around, light component (a) and (b) after passing through sensing bare fibre 32, and the light path of passing by is identical.
When thanksing for your hospitality the movable property life, define this because the change in optical path length amount that external disturbance forms is L (t), then L (t) is proportional with disturbance.Light component (a) and (b) have time difference τ through sensing
bare fibre 32 time, formed optical path difference is L (t+ τ)-L (t).According to the operating principle of all-fiber interferometer, the interferometric phase that the variation of this optical path difference forms in interference system
Can be expressed as
Wherein,
The change in optical path length rate that the expression disturbance causes, relevant with the bullet light characteristic of optical fiber, λ is light wavelength, τ is the time lag that
fibre delay line 313 causes.After filtering out flip-flop, the corresponding optical signal component that finally detects in monitoring terminal 10 is:
The physical quantity L ' that can try to achieve reflection disturbance speed according to formula (1) and formula (2) (t), by integral operation, the final true reduction that realizes multidate information in full Fibre Optical Sensor terminal 30 surrounding environment.
Embodiment 2:
Another typical embodiment of the present invention as shown in Figure 4,2 * 2 fiber couplers 311 among Fig. 3 among the embodiment 1 are replaced with 3 * 3 fiber couplers 316, and from transmission cable 20, draw a side of 3 optical fiber access, 3 * 3 fiber couplers 316, wherein one is input, all the other two are output, at the opposite side of 3 * 3 fiber couplers 316, only use two interfaces wherein, connect optical patchcord 314 and optical patchcord 315; Speculum 33 among Fig. 3 is replaced with faraday's polarization revolving mirror 34; The structure of remainder is identical with embodiment 1.
In the present embodiment, if definition needs N full Fibre Optical Sensor terminal 30, then should comprise at least 3N fiber number in the transmission cable 20.
In the present embodiment, corresponding sensing terminal 30, the effective optical signal component that detects in monitoring terminal 10 is two:
Wherein,
Be the initial phase difference of being introduced by 3 * 3 fiber couplers 316.According to formula (1) and formula (3), (4), can try to achieve equally the physical quantity L ' of reflection disturbance speed (t), by integral operation, the final true reduction that realizes multidate information in full Fibre Optical Sensor terminal 30 surrounding environment.
Embodiment 1 is identical with the basic functional principle of 2 two kinds of structures of embodiment, and difference is: the structure of embodiment 1 is simpler, and the core number of optical fiber is less in the transmission cable 20, and the number of photodetector is also less in the monitoring terminal 10; Each full Fibre Optical Sensor terminal 30 corresponding two-way output more is conducive to follow-up signal and processes among the embodiment 2, adopts faraday's polarization rotating mirror, is used for eliminating the impact of circuit polarization state, has improved the reflecting effect to incident optical signal.
The follow-up processing procedure of embodiment 1 and embodiment 2 is identical, as follows:
In monitoring terminal 10, the optical signal that returns at first enters and detects and amplification module 13, optical signal is carried out the processing such as opto-electronic conversion, low noise amplification, high-pass filtering, changes into the signal of telecommunication that is fit to arithmetic processor collection and computing; In data acquisition module 14, finish the functions such as analog-to-digital conversion, high-speed data acquisition; In data processing module 15, finish the functions such as demodulates information reduction, Spectrum Conversion, pattern-recognition, intellectual analysis, data storage; Finally in display module 16, the various information that monitor are shown, locate and report to the police (early warning) in real time.In monitoring terminal 10, comprise necessary software systems.
The front provides the description to preferred embodiment, so that any technician of this area can use or utilize the present invention.Various modifications to these embodiment are evident for personnel skilled in the art, and can total application of principle described here not used creativeness to other embodiment.Thereby, the embodiment shown in the present invention will be not limited to here, and should be according to meeting the principle that discloses and the wide region of new features here.